Publications

Displaying 301 - 325 of 417

NIST Virtual/Physical Random Profile Roughness Calibration Standards

October 1, 1998

Author(s)

Jun-Feng Song, Christopher J. Evans, Michael L. McGlauflin, Eric P. Whitenton, Theodore V. Vorburger, Y B. Yuan

The NIST (National Institute of Standards and Technology) virtual/physical surface roughness calibration standard consists of physical specimens whose surfaces are manufactured by a numerically controlled diamond-turning process using digitized profiles

Measurement of Pitch and Width Samples with the NIST Calibrated Atomic Force Microscope

June 1, 1998

Author(s)

Ronald G. Dixson, R Koning, Theodore V. Vorburger, Joseph Fu, V W. Tsai

Because atomic force microscopes (AFMs) are capable of generating three dimensional images with nanometer level resolution, these instruments are being increasingly used in many industries as tools for dimensional metrology at sub- micrometer length scales

Advances in NIST Standard Rockwell Diamond Indenters

January 1, 1998

Author(s)

Jun-Feng Song, Samuel R. Low III, David J. Pitchure, Theodore V. Vorburger

Recent developments in standard hardness machines and microform calibration techniques have made it possible to establish a worldwide unified Rockwell hardness scale with metrological traceability. This includes the establishments of the reference

Characterization of Surface Topography

January 1, 1998

Author(s)

Theodore V. Vorburger, John A. Dagata, G. Wilkening, K Iizuka

Abstract not available.

Improving Step Height and Pitch Measurements Using the Calibrated Atomic Force Microscope

January 1, 1998

Author(s)

R Koning, Ronald G. Dixson, Joseph Fu, V W. Tsai, Theodore V. Vorburger

The most important industrial application of Atomic Force Microscopy (AFM) is probably the accurate measurement of geometrical dimensions of small surface structures. In order to maintain the instrument''s performance and to achieve the high accuracy often

Measurement Traceability of NIST Standard Rockwell Diamond Indenters

January 1, 1998

Author(s)

Jun-Feng Song, Samuel R. Low III, Walter S. Liggett Jr, David J. Pitchure, Theodore V. Vorburger

A metrology-based Rockwell hardness scale is established by a standard machine and a standard diamond indenter. Both must be established through force and dimensional metrology with acceptably small measurement uncertainties. In 1994, NIST developed a

Measurements of Pitch, Height, and Width Artifacts with the NIST Calibrated Atomic Force Microscope

January 1, 1998

Author(s)

Ronald G. Dixson, V W. Tsai, Theodore V. Vorburger, Edwin R. Williams, X Wang, Joseph Fu, R Koning

The presence of the atomic force microscope (AFM) in the industrial metrology setting is rapidly increasing. Properties commonly measured in such applications are: feature spacing (pitch), feature height (or depth), feature width (critical dimension), and

NIST Microform Calibration - How It Benefits U.S. Industry

January 1, 1998

Author(s)

Jun-Feng Song, Theodore V. Vorburger

In microform metrology, complex 3-D surface features in the micrometer range must be quantified for their space and size including dimensions, curves, angles, profile deviations, and alignment errors, as well as surface roughness with measure uncertainties

Performing Measurements of Surface Structures With the Calibrated Atomic Force Microscope

January 1, 1998

Author(s)

R Koning, Ronald G. Dixson, Joseph Fu, V W. Tsai, Theodore V. Vorburger

The use of the atomic force microscope (AFM) to characterize surface structures for industrial applications is rapidly increasing. To compare the results obtained by different instruments and to achieve high accuracy, the scales of an AFM must be

Technical Directions of the NIST Precision Engineering Division: 1997-2001

January 1, 1998

Author(s)

Dennis A. Swyt, Howard H. Harary, Michael T. Postek, Richard M. Silver, Theodore V. Vorburger

This report, based on U.S. industry roadmaps and related National Institute of Standards and Technology studies, is a product of the process of strategic planning for the NIST Precision Engineering Division (PED) and presents the major technological trends

The Study of Silicon Stepped Surfaces as Atomic Force Microscope Calibration Standards With a Calibrated AFM at NIST

January 1, 1998

Author(s)

V W. Tsai, Theodore V. Vorburger, Ronald G. Dixson, Joseph Fu, R Koning, Richard M. Silver, E. C. Williams

Due to the limitations of modern manufacturing technology, there is no commercial height artifact at the sub-nanometer scale currently available. The single-atom steps on a cleaned silicon (111) surface with a height of 0.314 nm, derived from the lattice

Scattering From Sinusoidal Gratings

September 1, 1997

Author(s)

B C. Park, Theodore V. Vorburger, Thomas Germer, Egon Marx

Laser light scattering from holographic sinusoidal gratings has been investigated with a view to its use in the calibration of the linearity of BRDF instruments, a task that requires a wide dynamic range in the scattered intensity. An aluminum-coated

Conference Report: Workshop on Advanced Methods and Models for Appearance of Coatings and Coated Objects, Gaithersburg, MD, May 20, 1996

July 1, 1997

Author(s)

M E. McKnight, J Martin, Michael Galler, Fern Y. Hunt, R Lipman, Theodore V. Vorburger, A Thompson

To help NIST researchers better understand industry''s needs, four NIST laboratories held a Workshop on Advanced Methods and Models for Appearance of Coatings and Coated Objects on May 20, 1996. The four NIST laboratories are Building and Fire Research

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